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PhyloMissForest: a random forest framework to construct phylogenetic trees with missing data.

Diogo Pinheiro1, Sergio Santander-Jimenéz2, Aleksandar Ilic3

  • 1INESC-ID, Instituto Superior Técnico, Universidade de Lisboa, Rua Alves Redol 9, Lisboa, 1000-029, Portugal.

BMC Genomics
|May 18, 2022
PubMed
Summary
This summary is machine-generated.

PhyloMissForest effectively imputes missing phylogenetic data using a random forest approach, improving evolutionary relationship inference. This method enhances accuracy and speed compared to existing techniques, even with substantial data loss.

Keywords:
Machine learningMissing data imputationPhylogenetic treeRandom forest

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Area of Science:

  • Evolutionary biology
  • Bioinformatics
  • Computational biology

Background:

  • Phylogenetic trees are crucial for understanding evolutionary history and biodiversity.
  • Missing data in phylogenetic analyses can lead to inaccurate evolutionary relationship inferences.
  • Existing methods for handling missing data have limitations in applicability and accuracy.

Purpose of the Study:

  • To introduce PhyloMissForest, a novel framework for imputing missing entries in phylogenetic distance matrices.
  • To infer accurate evolutionary relationships despite the presence of missing biological data.
  • To provide a robust and configurable solution for phylogenetic missing data imputation.

Main Methods:

  • PhyloMissForest utilizes a random forest structure to infer missing data based on available information.
  • The framework integrates multiple search strategies, machine learning, and phylogenetic techniques.
  • A design of experiments methodology was employed for efficient hyperparameter tuning.

Main Results:

  • PhyloMissForest generally outperforms state-of-the-art imputation techniques on real DNA data, especially with up to 60% missing data.
  • Significant improvements in execution time were observed for amino acid data imputation.
  • The framework demonstrates improved imputation accuracy on simulated data with large percentages of missing values.

Conclusions:

  • PhyloMissForest offers a highly customizable and robust framework for phylogenetic missing data imputation.
  • The method achieves significant topological accuracy in inferring evolutionary relationships.
  • PhyloMissForest provides effective speedups compared to existing state-of-the-art methods.